201003166 九、發明說明: 【發明所屬之技術領域】 本發明涉及一種鏡頭組裝裝置。 【先前技術】 在鏡頭模組之生產製程中’每個鏡頭元件之光軸與鏡 筒之軸線係否重合,對於成像品質有很大影響。目前,在 將鏡片,遮光片及墊圈等鏡頭元件組裝至鏡筒時,係由人 工用壓棒直接將鏡頭元件壓進鏡筒中,但係這樣容易 鏡頭元件傾斜及鏡頭元件變形等各種問題,嚴重 頭模組之品質。 〜鏡 【發明内容】 有鑒於此,有必要提供一 組裝裝置。 種k面產品組褒良率 之鏡頭 -種鏡頭組裝裝置,其包括—透明套 ㈣中之厂輯及-彈性件。所述套筒内壁 ==包括一壓棒本體,沿該壓棒本體一丄: 軸向=及一個位於該凸起部上遠離該壓棒本體 觸:所述壓=起體=述套筒之内壁相接 r:::與所述親觸:: 所鳴本體之下表面,另-端連接於所 本發明之鏡頭組裝裝置南丨__ 向·頭元件,有效防止在_元; 6 201003166 鏡頭組件發生傾斜。 【實施方式】 請參閱圖1,為本發明實施方式提供之鏡頭組裝裝置 工〇〇’其用於將鏡頭元件200組裝入鏡筒210内,其包括一 套筒110 ’ 一壓棒12〇,一滑塊環13〇及一彈性件14〇。 所述套筒110為一用透明材料做成之中間有通孔 之圓柱狀結構,沿其内壁112中部周向形成有一擋環113, 在該套靖110底端外侧周向形成有一底座114。所述擋環 113包括一上表面115,所述底座114用於將所述套筒11〇 ^撐在工作臺3〇〇上。可以理解,用透明材料做成所述套 筒110,有利於工作人員在使用過程中,更準確方便地將 所述壓棒120與所述鏡筒210之位置對齊。 所述壓棒120包括一壓棒本體121,沿該壓棒本體ι21 端轴向延伸出之凸起部122,在所述凸起部122上遠離 °亥髮棒本體121之一端軸向延伸出之壓頭123。所述壓頭 23之控向尺寸與鏡頭元件2〇〇之徑向尺寸相同,從而可 以將所述鏡頭元件200壓至鏡筒210中。所述壓棒120容 置於所述套筒110中,且所述壓棒本體121與所述套筒n〇 之内壁112相接觸’同時所述凸起部122之外壁124與所 迷擋環113相接觸’從而保證所述套筒11〇與壓棒12〇之 輪線相互重合,使得所述壓棒12〇在所述套筒11〇中滑動 寺’可沿所述壓棒120之軸向運動,不會發生傾斜。可以 理解’根據鏡頭元件200之徑向尺寸不同,所述壓棒12〇 係可以更換之。 7 201003166 所述滑塊環130可容置於所述套筒11〇中。所述滑塊 環130中部有一通孔131。所述壓棒12〇之凸起部122可 穿過所述滑塊環130之通孔131,使所述壓棒本體121置 於所述滑塊環130上,且所述滑塊環13〇之内壁I%與所 述壓棒120之凸起部122相接觸,所述滑塊環13〇之外壁 132與所述套筒11〇之内壁112相接觸,從而保證所述滑 塊% 130與所述壓棒12〇及所述套筒n〇之軸線相互重 5可以理解,所述滑塊環130亦可以省略,但係設置滑 塊裱130以後,可以使所述壓棒12〇沿其軸向更加平穩之 運動。 所述彈性件140沿所述壓棒12〇之軸向放置在所述套 离之内壁112與所述愿棒12〇之凸起部122之外壁124之 間所形成之容置空間15〇内,且所述彈性件14〇之一端i4i 連接於所述擋環113之上表面115,另一端142連接於所 述滑塊環130之下表面134,使得工作人員將鏡頭元件2〇〇 壓到合適之位置後,所述壓棒12〇可自動回復至初始位 置然後可進行下一次之組裝動作。同時,所述彈性件 =可以緩衝所述壓頭123對所述鏡頭元件2〇〇之壓力,使 得鏡頭元件200可以平穩安全地被置入所述鏡筒21〇内, 而減小壓壞鏡頭元件200等組裝不良之比例。本實施方式 中所述彈性件140為一柱形彈簀。可以理解,為了防止 所述彈性件14〇彈力減弱之情況,所述彈性件M0還可以 為錐形彈簧。 利用該鏡頭組裝裝置1〇〇將所述鏡頭元件2〇〇組裝入 8 201003166 所述鏡筒210之過程中,先在工作臺300上放置一託盤 220,將所述鏡筒210固定於所述託盤220上,然後將所述 鏡頭元件200水準放置於所述鏡筒210之開口端,然後將 所述鏡頭組裝裝置100套設於所述鏡筒210上,調整該鏡 ~ 頭組裝裝置忉〇之位置,使所述壓頭123與所述鏡筒21〇 之位置對齊。施壓前’所述壓棒12〇位於起始位置。當向 下施壓時,壓棒120將沿套筒n〇之軸向運動,從而確保 壓棒120豎直向下,垂直於鏡頭元件2〇〇,不會因為下壓 時之傾斜造成產品良率不高。當把鏡頭組件2〇〇壓至合適 之位置後,將壓棒120釋放,則彈性件14〇會帶動壓棒 自動回復至起始位置,可進行下一次組裝動作。 本發明之鏡頭組裝裝置利用一套筒保證壓棒沿其軸向 下壓鏡頭元件,而且利用一彈性件可在將鏡頭組件壓至合 適之位置後,帶動壓棒回復至初始位置,以便於下次鏡頭 絚装,有效防止在將鏡頭元件組裝入鏡筒時,鏡頭元件發 生傾斜,可有效提高產品良率及生產效率。 V. 絲上所述’本發明符合發明專利要件,爰依法提 出專利申請。惟,以上所述者僅為本發明之較佳實施 方,,本發明之範圍並不以上述實施方式為限,舉凡 .、、'驾本案技藝之人士援依本發明之精神所作之等效 修飾或變化,皆應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 —圖1係本發明實施方式提供之鏡頭組裝裝置組裝鏡頭 前之示意圖; 9 201003166 圖2係本發明實施方式提供之鏡頭組裝裝置組裝鏡頭 時之示意圖。 【主要元件符號說明】 鏡頭組裝裝置 100 套筒 110 通孔 111 内壁 112 擋環 113 底座 114 擋環上表面 115 壓棒 120 壓棒本體 121 凸起部 122 壓頭 123 凸起部外壁 124 滑塊環 130 通孔 131 滑塊環外壁 132 滑塊環内壁 133 滑塊環下表面 134 彈性件 140 一端 141 另一端 142 容置空間 150 鏡頭組件 200 鏡筒 210 托盤 220 工作台 300 10201003166 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to a lens assembly device. [Prior Art] In the manufacturing process of the lens module, the optical axis of each lens element coincides with the axis of the lens barrel, which has a great influence on the image quality. At present, when a lens element such as a lens, a light shielding film, and a gasket is assembled to a lens barrel, the lens element is directly pressed into the lens barrel by a manual pressure bar, but the lens element is easily tilted and the lens element is deformed. The quality of the head module. ~ Mirror [Invention] In view of this, it is necessary to provide an assembly device. A lens for the k-face product group - yield - a lens assembly device, which includes a factory cover and a flexible member in a transparent cover (4). The inner wall of the sleeve== includes a body of the pressure bar along which the body of the pressure bar is: axially = and one is located away from the body of the pressure bar on the protrusion: the pressure = the body of the sleeve The inner wall is connected to r::: and the pro-touch:: the lower surface of the body is connected, and the other end is connected to the lens assembly device of the present invention. The head element is effectively prevented from being in the _ yuan; 6 201003166 The lens assembly is tilted. [Embodiment] Please refer to FIG. 1 , which is a lens assembly apparatus of the embodiment of the present invention. The lens assembly 200 is assembled into a lens barrel 210 and includes a sleeve 110 ′ a pressure bar 12 〇. A slider ring 13〇 and an elastic member 14〇. The sleeve 110 is a cylindrical structure having a through hole formed in a transparent material, and a retaining ring 113 is formed circumferentially along the central portion of the inner wall 112. A base 114 is circumferentially formed on the outer side of the bottom end of the sleeve 110. The retaining ring 113 includes an upper surface 115 for supporting the sleeve 11 on the table 3. It can be understood that the sleeve 110 is made of a transparent material, which is convenient for the worker to align the position of the pressure bar 120 with the lens barrel 210 more accurately and conveniently during use. The pressing rod 120 includes a pressing rod body 121, and a convex portion 122 extending axially along the end of the pressing rod main body ι21, and extending axially away from one end of the convex rod body 121 The indenter 123. The directional size of the ram 23 is the same as the radial dimension of the lens element 2, so that the lens element 200 can be pressed into the lens barrel 210. The pressure bar 120 is received in the sleeve 110, and the pressure bar body 121 is in contact with the inner wall 112 of the sleeve n〇 while the outer wall 124 and the blocked ring of the convex portion 122 113 contact 'to ensure that the sleeve 11 〇 and the wheel of the pressure bar 12 相互 coincide with each other such that the pressure bar 12 滑动 slides in the sleeve 11 ' can be along the axis of the pressure bar 120 To the movement, no tilt will occur. It will be understood that the pressure bar 12 can be replaced depending on the radial dimension of the lens element 200. 7 201003166 The slider ring 130 can be received in the sleeve 11〇. A through hole 131 is defined in the middle of the slider ring 130. The protrusion 122 of the pressure bar 12 can pass through the through hole 131 of the slider ring 130, and the pressure bar body 121 is placed on the slider ring 130, and the slider ring 13〇 The inner wall I% is in contact with the convex portion 122 of the pressure bar 120, and the outer wall 132 of the slider ring 13 is in contact with the inner wall 112 of the sleeve 11〇, thereby ensuring the slider % 130 and It can be understood that the axis of the pressure bar 12 〇 and the sleeve n 相互 is 5, the slider ring 130 can also be omitted, but after the slider 裱 130 is provided, the pressure bar 12 can be slid along the same A more stable axial movement. The elastic member 140 is placed in the accommodating space 15 形成 formed between the inner wall 112 of the sleeve and the outer wall 124 of the convex portion 122 of the wishing bar 12 along the axial direction of the pressure bar 12〇. And one end i4i of the elastic member 14 is connected to the upper surface 115 of the retaining ring 113, and the other end 142 is connected to the lower surface 134 of the slider ring 130, so that the worker presses the lens element 2 to After a suitable position, the pressure bar 12 〇 can automatically return to the initial position and then the next assembly action can be performed. At the same time, the elastic member=can buffer the pressure of the ram 123 on the lens element 2, so that the lens element 200 can be smoothly and safely placed into the lens barrel 21〇, and the crush lens is reduced. The ratio of assembly failure of component 200 and the like. In the embodiment, the elastic member 140 is a cylindrical magazine. It can be understood that the elastic member M0 may also be a conical spring in order to prevent the elastic member 14 from being weakened. Using the lens assembly device 1 to assemble the lens element 2 into the lens barrel 210 of the 201003166, a tray 220 is first placed on the table 300, and the lens barrel 210 is fixed to the lens barrel 210. On the tray 220, the lens element 200 is then placed at the open end of the lens barrel 210, and then the lens assembly device 100 is sleeved on the lens barrel 210 to adjust the mirror-head assembly device. The position of the ram 123 is aligned with the position of the barrel 21 〇. Before the pressing, the pressure bar 12 is located at the starting position. When pressed downward, the pressure bar 120 will move along the axial direction of the sleeve n〇, thereby ensuring that the pressure bar 120 is vertically downward, perpendicular to the lens element 2〇〇, and does not cause good product due to the inclination when pressing down. The rate is not high. When the lens assembly 2 is pressed to a suitable position and the pressure bar 120 is released, the elastic member 14 带 will automatically return the pressure bar to the starting position for the next assembly operation. The lens assembly device of the present invention utilizes a sleeve to ensure that the pressure bar presses down the lens element along its axial direction, and an elastic member can be used to push the pressure bar back to the initial position after the lens assembly is pressed to a suitable position, so as to facilitate the lower portion. The secondary lens armor prevents the lens element from tilting when the lens element group is incorporated into the lens barrel, which can effectively improve product yield and production efficiency. V. The above description is in accordance with the invention patent requirements, and the patent application is filed according to law. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and the equivalent of the person skilled in the art of the present invention is based on the spirit of the present invention. Modifications or variations are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a lens assembly device according to an embodiment of the present invention before assembling a lens; 9 201003166 FIG. 2 is a schematic view showing a lens assembly device according to an embodiment of the present invention when assembling a lens. [Main component symbol description] Lens assembly device 100 Sleeve 110 Through hole 111 Inner wall 112 Retaining ring 113 Base 114 Retaining ring upper surface 115 Pressure bar 120 Compression bar body 121 Raised portion 122 Indenter 123 Raised portion External wall 124 Slider ring 130 through hole 131 slider ring outer wall 132 slider ring inner wall 133 slider ring lower surface 134 elastic member 140 one end 141 the other end 142 accommodating space 150 lens assembly 200 lens barrel 210 tray 220 table 300 10